Abstract
With the great demand of consumer electronics (CE) and electric vehicles (EV), cobalt has become one of the more scarce energy metals. The recovery of cobalt from a copper converter slag, which contained over 2.4% Co and was accumulated as industrial waste, by reduction-sulfurization smelting was explored. Quantitative analysis of treated slag showed that activated carbon and ferrous sulfide can be used to settle cobalt into matte as Co–Fe alloy. The experiment was carried out at 1673 K with a reducing atmosphere of burning electrode graphite crucible. It was found that the recovery of Co would increase with increased added activated carbon, was unaffected at higher carbon additions, and for low additions of carbon increased at higher FeS additions. Over 95% Co, 99% Cu and 62% Fe could be settled into matte. Preliminary separation of Co from converter slag by pyrometallurgical smelting is proposed.